Spin Coater & Hot Plate


Brewer Science Cee 200CBX Programmable Spin Coater

spin coater

The Cee spin coater is capable of saving infinite programmable presets, each with timed (0.1 s to 9,999.9 s) and stepped control of acceleration rates (1-30000 r/m/s, unloaded) and held angular speeds (1-6000 r/m), with repeatability of ±5 r/m. Infinite steps per program are possible.

The 10" hot plate to the left of the spinner is also capable of saving infinite programmable presets with infinite steps. Three baking methods are available: contact, vacuum and proximity. The hot plate heats to 300 °C, with a maximum ramp rate of 6 °C per minute (100% duty cycle.)

To reserve the Spin Coater located in the Photolithography Room, click here.


Brewer Science Cee 1300X Hot Plate

hot plate

The 10" Cee hot plate is capable of saving infinite programmable presets with infinite steps. Three baking methods are available: contact, vacuum and proximity. The hot plate heats to 300 °C, with a maximum ramp rate of 6 °C per minute (100% duty cycle.)


CMADP Upcoming Events

Special seminar by Dr. Kevin W. Plaxco
Professor of Chemistry & Biochemistry
UC Santa Barbara

Wednesday, April 19, 2017 at 4:00pm
School of Pharmacy, Room 3020

"Counting molecules, dodging blood cells: real-time molecular measurements directly in the living body"
The development of technology capable of continuously tracking the levels of drugs, metabolites, and biomarkers in situ in the body would revolutionize our understanding of health and our ability to detect and treat disease. It would, for example, provide clinicians with a real-time window into organ function and would enable therapies guided by patient-specific, real-time pharmacokinetics, opening a new dimension in personalized medicine. In response my group has pioneered the development of a “biology-inspired” electrochemical approach to monitoring specific molecules that supports real-time measurements of arbitrary molecular targets (irrespective of their chemical reactivity) directly in awake, fully ambulatory subjects.
KU Today